Research Journal of Recent Sciences ______ ______________________________ ______ ____ ___ ISSN 2277 - 2502 Vol. 1(5), 38 - 45 , May (2012) Res.J.Recent Sci. International Science Congress Association 38 Adapting Gujarat to Climatic Vulnerabilities: The Road Ahead Hiremath Deepa B. and Shiyani R.L. Department of Agricultural Economics, Junagadh Agricultural University, Junagadh, INDIA Available online at: www.isca.in (Received 2 nd March 2012 , revised 7 th March 2012 , accepted 22 nd March 2012 ) Abstract Climate change is expected to affect agriculture, following food security and farmers’ livelihood. Though several international level interventions have taken a step forward, there is a need to carry out disaggregated analysis at the regional level, particularly, within the state in order to fine - tune the hot spot areas that need immediate interventions. Keeping this in view, and the fact that there exists a dearth of systematic literature with reference to climate change in Gujarat, the present study aims to assess the impacts of climate change particularly with re ference to rainfall and temperature parameters notwithstanding the relationship between climate change and the vulnerability of people living in different districts of Gujarat. For Gujarat state as a whole, it could be concluded that the year 1987 was undo ubtedly the driest year across the various agro - climatic zones during the entire period of study. The Northwest Arid Zone was the most vulnerable zone due to extreme deviations in rainfall pattern. The results of distribution of frequencies of clusters of below average rainfall years showed that in general, during the period 1978 - 2008, more than ninety per cent of the districts had more number of years with below average rainfall. The districts of S urat, Narmada, Patan, Gandhinagar and Amreli had more number of clusters of three years and above with below average rainfall and thereby, indicating a high variability of rainfall in these districts. The vulnerability indices constructed revealed that the variables pertaining to agricultural vulnerability were the major contributors in the overall vulnerability to climate change during the different periods. Next to the agricultural indicators, the occupational indicators were found to be the second larges t contributors towards overall vulnerability. Keeping in view the vulnerability of different districts, investments in adaptation research capacity: particularly, in the development of cli mate proof crops, improvements in the agronomic practices of crops s uch as revising planting dates, plant densities etc, designing region - specific strategies particularly suited to drylands such as rainwater harvesting, livestock development and better techniques of dryland agriculture, income diversification and generatin g better employment opportunities in districts where out - migration is high as well as adopting resource conservation technologies emerged as the major suggestions of this study. Keywords : Climate change, v ulnerability, r ainfall variability/deviations, a da ptation . Introduction The dynamic patterns in climate started being observed since the mid - 20th century and Gujarat is no exception to this. Initially, these changes were looked upon as cyclical changes but evidences pointed to what seemed like a trend, which could not be expla ined away as normal cyclical climatic changes. Gujarat is a state with semi - arid zones and encompasses the longest coastline. These characteristic features make the state relatively more vulnerable to climate change. Agricultural growth, food security, h uman health, biodiversity, and overall development could be in jeopardy if the issue is not addressed upon in a timely and systematic manner. Western India is expected to receive higher than normal rainfall as temperatures continue to rise. This change in the quantum of rainfall and its time of occurrence will adversely affect agriculture in the state. Coastal areas are likely to be the worst hit as the agricultural land is susceptible to inundation and salinity. Extreme weather conditions in the form of dr oughts floods and cyclones wipe out standing crops and the farmers are left impoverished and helpless. It is observed that in arid regions including Gujarat, malaria epidemics have often followed excessive rainfall. The high temperatures of summer provide favorable breeding conditions for disease causing vectors and the heavy rains that follow causes flooding and subsequently waterborne diseases. The health implications of climate change will need to be carefully monitored 1 . Thus, this paper aims at putting forward the potential impacts of climate change and variability on Gujarat state’s agricultural economy on the basis of which the possible adaptation and mitigation strategies could be devised in the perspective of policy development. Methodology The rainfall deviations (per cent) from the mean (surplus/deficit) were computed for the selected districts falling under various agro - climatic zones of Gujarat. A study period of 31 years from 1978 to 2008 was taken into consideration. Based on the magnit ude of these deviations, frequency distribution tables were constructed to identify all those years in which the rainfall was surplus/deficit and the extent of surplus/ deficit rainfall in Research Journal of Recent Sciences ____________ _ _ _______________________________ ______________ __ ISSN 22 77 - 2502 Vol . 1(5), 38 - 45 , May (2012) Res.J. Recent Sci. International Science Congress Association 39 percentage. The frequencies of surplus/ deficit annual rainfall yea rs during the period of study were also worked out. Furthermore, the distribution of frequency of clusters of below average rainfall years during the period 1978 to 2008 were worked out for the selected districts of Gujarat. In order to get a more holisti c idea about the vulnerability of the various districts to climate change, vulnerability indices were worked out using Sudarshan and Iyenger’s method 2 for various districts of Gujarat for the year 2008. The indices were worked out under four components viz ; i. Demographic vulnerability indices ii. Climatic vulnerability indices , iii. Agricultural vulnerability indices and iv. Occupational vulnerability indices. The districts were ranked on the basis of component - wise indices. Results and Discussion The distribution of frequencies of clusters of below average rainfall years along with the number of below average rainfall years pertaining to Gujarat’s Agro - climatic Zones are presented in t able 1. It can be observed that in general, during the period 19 78 - 2008, more than ninety per cent of the districts had more number of years with below average rainfall. Only the districts of Dangs and Narmada had more number of years with above average rainfall as compared to below average rainfall during the entire p eriod of study The results presented also reveal that in comparison to the clusters of different years, the ‘No cluster’ category showed a greater frequency of occurrence in majority of the districts. This implies inconsistency in rainfall during the perio d. It can be inferred from t able 1 that the districts of Surat, Narmada, Patan, Gandhinagar and Amreli had more number of clusters of three years and above with below average rainfall years and thereby, indicating a high variability of rainfall in these d istricts. It can be concluded that these districts could have a greater vulnerability towards climate change so far as rainfall parameter is concerned. On the contrary, Bhavnagar and Bharuch districts were two such districts in which there was only ‘ one ’ c luster of three years and above thereby indicating a relatively low variability of rainfall. According to a World Bank r eport, consecutive two years of less rainfall makes it difficult for the communities to sustain their livelihoods and it becomes worse, when there is three years of consecutive less rainfall. Hence, improving crop production in these regions largely depends on better capture and storage of rainwater. Thus, rainwater harvesting and better storage technologies must be developed. Apart from this, better land and crop management are equally important. Policies to improve irrigation efficiency are also critical. Research is needed on water flows and water quality, and infrastructure needs to be improved. Further, the analyses of rainfall data f or the state of Gujarat reveals that Gujarat experienced 12 years of drought and four major scarcity situations. However, the intensity and return period of major drought events have increased substantially in last two - three decades, and it is often correl ated to the impact of climate change. Traditionally, Gujarat has a drought cycle of 5 years, wherein 2 years, there is moderate rainfall, 2 years less rainfall, and 1 year of good rainfall. Consecutive 2 years of less rainfall makes it difficult for the co mmunities to sustain their livelihoods. It becomes worse, when there is 3 years of consecutive less rainfall. Statistical data show that in last two decades, the intensity of the 3 years of consecutive less rainfall is increasing, and thereby creating seve re drought situation. A perusal of results in t able 2 indicate that for Gujarat state as a whole, it could be concluded that the year 1987 was undoubtedly the driest year across the various agro - climatic zones during the entire period of study. Similarly, the years 2006 and 2007 were observed to receive heavy rainfall across considerable number of districts, thus being recognized amongst the wettest years for the state. Kutch district, belonging to the Northwest Arid Zone, received the least annual rainfal l of only 5.00 mm during 1987 which also happened to be the lowest quantum of rainfall for the state as well during the entire period of study from1978 to 2008. The maximum quantum of annual rainfall in Gujarat state being 4647.60 mm was received by the Da ngs district of Southern Hills Agro - climatic Zone in 1994. In Gujarat, the maximum deviation in the quantum of average rainfall between the driest and wettest years was observed in Junagadh district i.e.; 1794.18 mm. The results from t able 3 indicate that the Northwest Arid Zone was the most vulnerable zone among all the agro - climatic zones due to extreme deviations in rainfall pattern. This was followed by North Saurashtra, South Saurashtra and Middle Gujarat Zones. The Southern Hills Zone had the least p er cent of years with extreme deviations. State - sponsored interventions in Kutch have not only failed to mitigate water scarcity but have exacerbated problems in some areas. This has been largely due to the dryland blindness of planners who have applied so lutions from the rest of Gujarat to Kutch where uncertainty seems to be a part and parcel of the life in the drylands, instead of designing strategies suited to the region. What Kutch needs is rainwater harvesting, livestock development and better techniqu es of dryland agriculture 3 . In the year 2008 ( t able 4, 5, 6), it may be observed that the top two demographically most vulnerable districts were Banaskantha, followed by Panchmahal district. Surat district was found to be the third most vulnerable distric t during the period so far as demographic vulnerability was concerned. The lowest literacy rate (51.26%) amongst the selected districts was the major contributing factor for Banaskantha being the demographically most vulnerable district. In spite of a high literacy rate in Surat district (75%), it ranked as the third most vulnerable district due to a very high density of population (653 persons per sq km) in the district. Research Journal of Recent Sciences ____________ _ _ _______________________________ ______________ __ ISSN 22 77 - 2502 Vol . 1(5), 38 - 45 , May (2012) Res.J. Recent Sci. International Science Congress Association 40 Table - 1 Distribution of below average rainfall years of the selec ted districts of Gujarat state (1978 - 2008) Sr. No. Agro - climatic zones and districts Number of years No. of below average rainfall years No. of above average rainfall years Frequency of clusters with below average rainfall Total no. of clusters (3 and above) No cluster Cluster of two Cluster of three Cluster of four Cluster of five and above A. North West Arid Zone 1 Kutch 31 20 11 3 2 1 1 1 3 Per cent 100 65 35 10 13 10 13 19 B. South Saurashtra 2 Porbandar 31 19 12 2 1 1 1 1 3 Per cent 100 61 39 6 6 10 13 26 3 Junagadh 31 17 14 2 0 1 1 1 3 Per cent 100 55 45 6 0 10 13 26 C. North Saurashtra 4 Amreli 31 17 14 2 0 1 3 0 4 Per cent 100 55 45 6 0 10 39 0 5 Bhavnagar 31 16 15 8 2 0 1 0 1 Per cent 100 52 48 26 13 0 13 0 6 Jamnagar 31 17 14 1 1 0 0 2 2 Per cent 100 55 45 3 6 0 0 46 7 Rajkot 31 16 15 4 0 1 1 1 3 Per cent 100 52 48 13 0 10 13 16 8 Surendranagar 31 17 14 3 2 1 0 1 2 Per cent 100 55 45 10 13 10 0 23 D. North Gujarat 9 Banaskantha 31 16 15 4 2 1 0 1 2 Per cent 100 52 48 13 13 10 0 16 10 Gandhinagar 31 21 10 0 1 1 0 3 4 Per cent 100 68 32 0 6 10 0 52 11 Mehsana 31 20 11 3 2 1 1 1 3 Per cent 100 65 35 10 13 10 13 19 12 Patan 31 21 10 1 1 1 1 2 4 Per cent 100 68 32 3 6 10 13 35 13 Sabarkantha 31 16 15 3 3 1 1 0 2 Per cent 100 52 48 10 19 10 13 0 E. Southern Hills 14 The Dangs 31 14 17 3 0 1 2 0 3 Per cent 100 45 55 10 0 10 26 0 15 Navsari 31 18 13 4 2 0 1 1 2 Per cent 100 58 42 13 13 0 13 19 16 Valsad 31 16 15 4 1 0 1 1 2 Per cent 100 52 48 13 6 0 13 20 F. Middle Gujarat 17 Ahmedabad 31 18 13 5 1 1 2 0 3 Per cent 100 58 42 16 6 10 26 0 18 Anand 31 18 13 3 0 0 1 2 3 Per cent 100 58 42 10 0 0 13 35 Research Journal of Recent Sciences ____________ _ _ _______________________________ ______________ __ ISSN 22 77 - 2502 Vol . 1(5), 38 - 45 , May (2012) Res.J. Recent Sci. International Science Congress Association 41 Table - 1 Continued Sr. No. Agro - climatic zones and districts Number of years No. of below average rainfall years No. of above average rainfall years Frequency of clusters with below average rainfall Total no. of clusters (3 and above) No cluster Cluster of two Cluster of three Cluster of four Cluster of five and above 19 Dahod 31 18 13 4 1 1 1 1 3 Per cent 100 58 42 13 6 10 13 29 20 Kheda 31 17 14 3 0 0 2 1 3 Per cent 100 55 45 10 0 0 26 19 21 Panchmahal 31 16 15 3 1 1 2 0 3 Per cent 100 52 48 10 6 10 26 0 22 Vadodara 31 17 14 2 1 0 2 1 3 Per cent 100 55 45 6 6 0 26 16 G. South Gujarat 23 Bharuch 31 15 16 7 2 0 1 0 1 Per cent 100 48 52 23 13 0 13 0 24 Narmada 31 18 13 4 0 2 2 0 4 Per cent 100 58 42 13 0 19 26 0 25 Surat 31 17 14 1 1 2 2 0 4 Per cent 100 55 45 3 6 19 26 0 Table – 2 Driest and wettest years during the period 1978 - 2008 in selected districts of Gujarat Sr. No. Agro - climatic Zone/ District Driest Year Rainfall (mm) Wettest year Rainfall (mm) A Northwest Arid Zone 1. Kutch 1987 5 1979 840.1 B. South Saurashtra 1. Porbandar 1999 164.00 1983 2538.00 2. Junagadh 1987 194.10 1983 2538.00 C. North Saurashtra 1. Amreli 1987 112.60 2007 1357.00 2. Bhavnagar 1987 121.00 2007 1371.00 3. Jamnagar 1987 36.00 2007 1945.00 4. Rajkot 1987 180.00 2007 1408.00 5. Surendranagar 1987 81.00 2007 974.00 D. North Gujarat 1. Banaskantha 1987 60.80 2006 1578.00 2. Gandhinagar 1987 135.90 2007 1284.00 3. Mehsana 1987 109.40 2005 1323.00 4. Patan 1987 109.40 2006 1675.00 5. Sabarkantha 1987 168.00 2006 1590.00 E. Southern Hills 1. The Dangs 2000 1431.00 1994 4647.60 2. Navsari 1999 984.00 1994 3261.80 3. Valsad 1993 1300.20 1994 3261.80 F. Middle Gujarat 1. Ahmedabad 1987 251.30 1994 1325.20 2. Anand 1986 301.30 2006 1403.00 3. Dahod 2000 271.00 1990 1542.00 4. Kheda 1986 301.30 2006 1361.00 5. Panchmahal 1999 331.00 1990 1542.00 6. Vadodara 1986 303.80 2005 1986.00 G. South Gujarat 1. Bharuch 1991 433.00 2007 1427.00 2. Narmada 1991 433.00 2006 1473.00 3. Surat 1987 632.00 1988 2298.00 Research Journal of Recent Sciences ____________ _ _ _______________________________ ______________ __ ISSN 22 77 - 2502 Vol . 1(5), 38 - 45 , May (2012) Res.J. Recent Sci. International Science Congress Association 42 Table – 3 Deviations in rainfall by Agro - Climatic Zones (Per cent) Rainfall deviatio - ns deficit/ excess (%) North - west Arid North Saurashtra South Saurashtra North Gujarat Middle Gujarat South Gujarat Southern Hills 0 6.45 16.77 11.29 16.31 19.35 21.51 27.96 10 – 20 9.68 14.19 24.19 18.24 21.51 15.05 31.18 20 – 30 12.90 12.26 11.29 14.42 14.52 20.43 20.43 30 – 40 6.45 17.42 11.29 13.04 12.37 11.83 6.45 40 – 50 3.23 5.81 11.29 9.86 9.14 13.98 6.45 50 and above 61.29 33.55 30.65 28.14 23.12 17.20 7.53 Table – 4 Component – wise and overall vulnerability indices for the year 2008 Districts Demographic Rank Climatic Rank Agriculture Rank Occupational Rank Overall Rank Ahmedabad 0.0355 4 0.0762 3 0.3131 2 0.1442 9 0.5690 2 Amreli 0.0213 11 0.0664 5 0.3014 3 0.1837 4 0.5729 1 Banaskantha 0.0486 1 0.0562 9 0.2418 12 0.1699 5 0.5165 6 Bharuch 0.0122 14 0.0272 13 0.3223 1 0.1614 6 0.5231 5 Jamnagar 0.0189 12 0.0253 14 0.2447 11 0.1879 2 0.4768 10 Junagadh 0.0258 9 0.1061 1 0.1464 14 0.1516 7 0.4299 13 Kheda 0.0317 6 0.0570 8 0.2668 7 0.1091 12 0.4646 11 Mehsana 0.0238 10 0.0711 4 0.2715 5 0.1485 8 0.5148 7 Panchmahal 0.0428 2 0.0507 11 0.2499 10 0.0665 14 0.4099 14 Rajkot 0.0149 13 0.0630 7 0.2639 8 0.1863 3 0.5281 4 Sabarkantha 0.0276 7 0.0814 2 0.2626 9 0.1406 10 0.5123 8 Surat 0.0388 3 0.0542 10 0.2853 4 0.1032 13 0.4816 9 Surendranagar 0.0268 8 0.0482 12 0.2699 6 0.1910 1 0.5359 3 Vadodara 0.0338 5 0.0650 6 0.2400 13 0.1174 11 0.4562 12 Table - 5 Component - wise contributions to the overall vulnerability to climate change for the year 2008 (Per cent) Districts Demographic Climatic Agriculture Occupational Total Ahmedabad 6.23 13.39 55.03 25.35 100.00 Amreli 3.72 11.60 52.61 32.07 100.00 Banaskantha 9.40 10.88 46.82 32.90 100.00 Bharuch 2.32 5.21 61.62 30.85 100.00 Jamnagar 3.97 5.31 51.31 39.41 100.00 Junagadh 6.00 24.68 34.05 35.27 100.00 Kheda 6.82 12.27 57.43 23.48 100.00 Mehsana 4.61 13.80 52.73 28.86 100.00 Panchmahal 10.43 12.36 60.98 16.23 100.00 Rajkot 2.82 11.92 49.98 35.28 100.00 Sabarkantha 5.40 15.89 51.26 27.45 100.00 Surat 8.06 11.26 59.24 21.44 100.00 Surendranagar 4.99 9.00 50.36 35.65 100.00 Vadodara 7.42 14.24 52.62 25.72 100.00 Table – 6 Classification of selected districts under different degrees of vulnerability for the year 2008 Less vulnerable Moderately vulnerable Vulnerable Highly vulnerable Very highly vulnerable Vadodara Surat ------ Surendranagar Amreli Junagadh Jamnagar ------ Rajkot Ahmedabad Panchmahal Kheda ------ Bharuch ------ Banaskantha ------ Mehsana ------ Sabarkantha Research Journal of Recent Sciences ____________ _ _ _______________________________ ______________ __ ISSN 22 77 - 2502 Vol . 1(5), 38 - 45 , May (2012) Res.J. Recent Sci. International Science Congress Association 43 Further, Junagadh district stood at the first position, thereby being the most vulnerable district to climatic variability. Junagadh district witnessed the highest variability in annual rainfall as well as Southwest monsoon making it the most vulnerable to climatic variability. Bharuch and Jamnagar districts ranked last indicating the lowest vulnerability due to fairly low variation in temperature and rainfall parameters. In case of agricultural vulnerability, Bharuch district ranked first and turned out t o be the most vulnerable district due to the upcoming industrial sector. As a result of which, vast stretches of agricultural land are being converted into industrial sites. Apart from this, low values of productivity of major crops, cropping intensity, ir rigation intensity, percentage area under food crops and non - food crops, less live stock population and grazing land led to greatest agricultural vulnerability of this district. Lastly, in case of occupational vulnerability, in majority of the years, the d istrict of Surendrangar ranked first and Panchmahal district ranked last in all the selected districts. Adaptation options for improving rural livelihoods in Gujarat : International communities have tried to respond to these changing phenomena though estab lishing high level Intergovernmental Panel on Climate Change (IPCC). Adaptation is the response in natural or human systems to actual or expected climatic stimuli and their effects, which moderates harm or exploits beneficial opportunities. It is the abil ity of a system to adjust to climate change (including climate variability and extremes) to moderate potential damages, to take advantage of opportunities, or to cope with the consequences. The adverse impacts of climate change can be reduced to a certain extent through adaptation. However, the involvement of costs or consequent residual damage would be unavoidable. Over the past several years, there have been discussions on climate change adaptation through organizational response and adaptive response bu t little has been focused on the community level adaptation integrating the adaptation methods in the policy perspective 4 . Studies by IPCC 5 revealed that, though vulnerability differs substantially across regions, the impacts, adaptive capacity and vulnerability would differ even within regions due to varying spatial and temporal situations. Similarly, the case of Gujarat was not different. T he results showed that the ranks and relative magnitudes of the vulnerability indices varied across the various districts in different periods. Thus, in line with Shaw’s findings in 2005, it can be suggested that though international level intervention is essential for the commitments and negotiations among the governments, at the community level, there is an urgent need to send the messages to impacts of climate change, and its possible adaptation strategies. Thus, the link between local, state, and natio nal governments to the community is of utmost importance. Since the agricultural sector was found to have the greatest bearing towards the overall vulnerability of different districts to climate change in, there is a need to shift focus towards investme nts in adaptation research capacity: particularly, in the development of climate proof crops (drought resistant and heat tolerant varieties) as well as redeploying the existing improved crop varieties that can cope with wide range of climatic conditions. A n improvement in the agronomic practices of different crops such as revising planting dates, plant densities and crop sequences can help cope with the delayed rainy seasons, longer dry spells and earlier plant maturity. Also, technologies for minimizing so il disturbance such as reduced tillage, conservation agriculture and crop rotation must be adopted. So far as the livestock sector is concerned, measures relating to utilization of fodder banks, control of livestock population and improvement in the lives tock productivity, organizing of cattle camps and conservation of fodder must be undertaken. The percentage area under forests must also be increased as less than 10 per cent of Gujarat's land is designated forest area , and much of that is seriously degrad ed. The villages of Gujarat continue to depend on firewood as a major source of energy. About 65 per cent of all energy in villages is generated through wood, a report by the state Forest Department on social forestry in Gujarat, has revealed. Thus, there is a call for more effective afforestation programmes and changes in policies e.g. resource conservation technologies and resource use efficiency, use of non - renewable energy sources and bio - degradable materials, pricing of resources and credit for transi tion to adaptation technologies. New strategies must be built around ‘green’ agricultural technologies, such as adaptive plant breeding, pest forecasting and rainwater harvesting and fertilizer microdosing. Following the agricultural indicators, the occup ational indicators were found to be the second largest contributors towards overall vulnerability in the selected districts of Gujarat. Thus, to reduce the climate change impact or to adapt with it, the first and foremost is livelihood security through inc ome diversification . The need to reduce the dependence solely on agriculture, by encouraging other non - farm sources of income, must be considered. The migration problem in some of the districts like Surendranagar was noticed to be high because of the water scarcity in the region. New industries hardly come to this district. In the whole of Gujarat, Surendranagar district gets lowest amount of new industrial investment 6 . Thus, the policy makers must focus on generating better employment opportunities fo r the people in this region. Apparently, the Northwest Arid Zone was found to be the most vulnerable zone among all the agro - climatic zones due to extreme deviations in the rainfall pattern. State - sponsored interventions in Kutch have not only failed to mitigate water scarcity but hav e exacerbated problems in some areas. The drought severity is the symptomatic manifestation of decades of dryland blindness. Research Journal of Recent Sciences ____________ _ _ _______________________________ ______________ __ ISSN 22 77 - 2502 Vol . 1(5), 38 - 45 , May (2012) Res.J. Recent Sci. International Science Congress Association 44 Figure – 1 Ranking of the districts based on vulnerability indices to climate change for the year 2008 Drylands such as the ‘tortoise’ Kutch may be dealt unfavorable cards by nature and are risk prone and uncertain. But strategies such as rainwater harvesting, livestock development and techniques to enhance dryland agriculture can help ove rcome many of these constraints. In short, drylands require strategies unique to their systems that take into account their uncertain dynamics. They are different perhaps even fragile, but they are definitely not liabilities. Lastly, since the worst suffe rers of climate change impacts are the rural communities, (who depends mainly on agriculture as their livelihoods), it is important to focus on the impacts of climate change on livelihoods, and re - establish the links among poverty, livelihood and environme nt. However, focusing on the communities only are not enough, and so long the community initiatives do not become part of the government policies, it is difficult to sustain the efforts. Moreover, a unique way of vulnerability reduction is through enhanci ng capacities of local people and communities. This can be considered as people and community dimension of human security, which should include livelihood security, environmental security, social security, self - security, and information security. Thus, fo r a state like Gujarat, what is required is a development strategy that integrates climate change policies with sustainable development strategies. Conclusion Gujarat state has the fastest growing economy in the country. It is rapidly expanding its produc tion and consumption activities. Thus, the state not only contributes to climate change but is equally vulnerable to its impacts. There is a pressing need to balance this development by simultaneously acting upon climate change and other issues which are p utting tremendous pressure on the environment’s carrying capacity. The evidences are overwhelming; it is only the time to act! What is most pleasing is that Gujarat has already begun to tackle this menace by opting for a more sustainable and holistic devel opment for itself. References 1. http://www.ceeindia.org/cee/pr/climatechange04.html 2. Iyenger N.S. and Sudarshan P, A Method of Classifying Regions from Multivariate data . Economic and Political Weekly , Special Article, 2048 - 52 (1982) 3. Mehta, L., Drought Diagnosis: Dryland Blindness of Planners , Economic and Political Weekly (2000) 4. info.worldbank.org/etools/docs/library/230308/Session%2 02/Session%202%20Reading%202.doc 0 2 4 6 8 10 12 14 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Rank Name of the Districts Amreli Ahmedabad Surendranagar Rajkot Bharuch Banaskantha Mehsana Sabarkantha Surat Jamnagar Kheda Vadodara Junagadh Panchmahals Research Journal of Recent Sciences ____________ _ _ _______________________________ ______________ __ ISSN 22 77 - 2502 Vol . 1(5), 38 - 45 , May (2012) Res.J. Recent Sci. International Science Congress Association 45 5. IPCC , Climate Change , Climate Change Impacts, Adaptation and Vulnerability. Summary for Policymakers, Inter - Governmental Panel on Climate Change (2007) 6. http://www.rashminsanghvi.com 7. Jani B.M., Economics of Drought in Gujarat: Issues and Policy Options for Drought in Gujarat, 1 (1989) 8. Modi, Narendra. Convenient Action: Gujarat’s Responses to Challenges of Climate Change, 3 (2009) 9. IPCC. Climate Change: The Scientific Basis. http://www.ipcc.ch/ (2001)